Do you have a conveyor chain lubrication or monitoring challenge at your facility? Please provide details here, and one of our experts will contact you within 1 business day.
ALT JS 7 was developed to meet the extreme lubrication demands of industry and the environment. It was designed using synthetic base materials to have less of a petroleum odour and the added benefit of being readily biodegradable. The use of the synthetic materials further improves the product by reducing deposit formation on application surfaces. This product acts as a lubricant, penetrant, and cleaner that reaches all links, pins, and moving parts of a conveyor chain. ALT JS 7 contains a unique blend of extreme pressure lubricating agents, which greatly reduce chain wear and drive power consumption, leading to increased chain life. ALT JS 7 also contains molybdenum disulfide, which deposits as a dry film coating on all metal surfaces. The molybdenum disulfide provides excellent anti-wear properties and prevents metal to metal contact.
ALT JS 7 is designed to have less of a petroleum odor.
ALT JS 7 can be used in applications where temperatures can range from ambient up to 315 °C (600 °F).
ALT JS 7 was specially formulated to be applied by ALT’s automated lubrication systems.
|Appearance||Dark Grey / Black|
|Viscosity||144 cSt @ 40 °C (667 sus@104 °F)|
|14.5 cSt @ 100 °C (75 sus@212 °F)|
|Flash Point (PMCC)||64 °C (147.2 °F)|
|Operating Temperature||Ambient – 315 °C (600 °F)|
|Four Ball Wear||0.85 mm|
All reasonable care has been taken to ensure the information contained in this document is accurate as of the day of publication. However, such information may be affected by changes in the blend formulation occurring subsequent to the day of printing.
Safety Data Sheets are available for all Applied Lubrication Technology Inc. products and must be consulted for appropriate storage, safe handling and disposal information of the product. Please contact an Applied Lubrication Technology Inc. representative to ensure your documentation is up-to-date.